KR101348241B1 - a pulverizer for waste plastic - Google Patents

Abstract

In order to recycle the waste plastic, the present invention cools high temperature frictional heat generated in the housing by mutual friction of the pulverized product and the pulverized object by pulverizing the pulverized material introduced into the housing by blade rotation due to circulation of cooling water or the like. To prevent softening of the plastic and to prevent finely pulverized matter such as scrap and crushed particles from being caught in the driving unit for rotating the blade.
Waste plastic crushing apparatus according to an embodiment of the present invention,
In the waste plastic crusher for grinding the waste plastic introduced through the opening of the housing due to the blade rotation,
A housing formed as an upper frame in which an opening into which the object is to be injected is formed, a lower frame in which the upper frame is detachably mounted, and a discharge port through which the pulverized object is discharged;
At least one of a rotating shaft rotatably mounted in the housing, the rotating shaft rotating the housing and the blade so as to cool the frictional heat due to the mutual heat exchange of the cooling water and the frictional heat generated in the housing due to the mutual friction of the crushed object and the crushed object. A cooling water circulation passage formed in one of the cooling water circulation passages connected to the inlets and outlets for inflow and outflow of the cooling water and filled with the cooling water;
It is formed on the left and right rotary support members rotatably supporting the rotating shaft on which the grinder is mounted, and supplies air pressure from the outside into the rotary support member to prevent the crushed scraps or pulverized particles from being crushed from the grinder drive unit. And a pneumatic supply passage for preventing the outflow of the dust from the inside of the housing through the gap.

Description

Waste Pulverizer {a pulverizer for waste plastic}

The present invention relates to a waste plastic pulverizer, and more particularly, to recycle the waste plastic, which is generated in the housing by mutual friction of the crusher and the pulverized pulverized pulverized material to be put into the housing by blade rotation. The high-temperature frictional heat is cooled by circulation of cooling water to prevent softening of the plastic, and to prevent finely pulverized matter such as scrap and crushed particles from being caught in the driving unit for rotating the blade. It relates to a plastic grinding device.

In general, to be able to recycle waste resources, such as waste plastics, the pulverized material introduced through the housing opening is pulverized by the blade rotation, and then used as a raw material for various products. At this time, when grinding the pulverized object, friction heat of high temperature (for example, about 30 to 40 ° C.) is generated due to mutual friction and collision between the pulverizer and the pulverized object, and softening the plastic due to such frictional heat. If it causes a phenomenon, the grinding efficiency is significantly lowered.

In addition, finely ground matter, such as scrap and crushed particles, is caught in a driving unit including a rotating shaft for rotating the blades and a bearing to crush the ground matter. If a failure occurs due to accumulation of the pulverized material for a long period of time, the pulverization rate is lowered because the crusher must be stopped, and after-sales costs are incurred due to maintenance and replacement of the corresponding parts.

According to an embodiment of the present invention, when grinding the pulverized material introduced into the housing by the rotation of the blade, the high temperature frictional heat generated in the housing is cooled by circulation of the cooling water or the like to prevent softening of the plastic, thereby increasing the grinding efficiency. Associated with the waste plastic crusher.

According to an embodiment of the present invention, by preventing the pinching of finely ground materials such as scrap and pulverized particles, such as a drive unit including a bearing for rotating the blade, etc., it is possible to reduce the frequency of crusher failure, thereby increasing the crushing rate, and causing crusher failure. It is associated with a waste plastic shredding device that can reduce post-management costs.

Waste plastic crushing apparatus according to an embodiment of the present invention,
The waste plastic injected through the opening is pulverized due to the rotation of the blade, and the upper frame is formed with the opening into which the pulverized material is input, and the upper frame is detachably mounted, and a discharge port through which the pulverized pulverized material is discharged is formed. Cooling friction heat due to the mutual heat exchange of the frictional heat and the cooling water generated in the housing due to the mutual friction of the crushed object and the crusher rotatably mounted in the housing and the crushed object to be crushed in the housing A cooling water circulation passage formed in at least one of the housing and the rotating shaft rotating the blades so as to be connected to an inlet and an outlet for inflow and outflow of the cooling water to fill the cooling water, and an air pressure for supplying external air into the housing; Including supply passage In the waste plastic pulverizing device made, the grinder is a rotary shaft rotatably supported at both ends by left and right rotary support members provided on both sides of the housing, a rotary body mounted on the rotary shaft and rotated counterclockwise; A plurality of blades which are detachably mounted by a fastening member so as to maintain a predetermined distance radially to the rotating body and are replaceable; The second blade 120 is detachably mounted to the lower frame by the fastening member so as to be close to the end of the blade so as to pulverize the object to be crushed with the blade rotated in the counterclockwise direction. It includes; A lower part of the grinder includes a mesh through which the particles to be milled by the grinder 10 are passed; The pneumatic supply passage prevents crushed scraps or pulverized particles from being caught in the pulverizer drive unit and prevents pulverized matters from leaking out of the housing through a gap from the inside of the housing and into the rotary bearing member from the outside. It is characterized in that formed on the rotary support member to supply air pressure.

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Waste plastic crushing apparatus according to an embodiment of the present invention configured as described above has the following advantages.

When pulverizing the to-be-ground object to be put in the housing by the blade, the high temperature heat generated in the housing is cooled by cooling water or the like, thereby preventing softening of the plastic, thereby increasing the grinding efficiency.

In addition, by preventing the accumulation of fine pulverized matter such as scrap and crushed particles, etc. in the drive unit for rotating the blade, the number of failures of the crusher is reduced, reducing the after-care costs, and minimizing the crusher's downtime, thereby continuously crushing. Can increase productivity.
In addition, since the blade and the second blade are mounted to the rotating body and the lower frame by the fastening member, when the end is blunted by the repeated grinding process, only the blade whose end is blunted and the second blade can be replaced.
In addition, only the pulverized material pulverized into small particles is discharged through the mash by the mash provided in the lower part of the pulverizer, and the less pulverized pulverized material is pulverized again. It also brings together the possible advantages.

1 is a side cross-sectional view of a waste plastic crushing apparatus according to an embodiment of the present invention,
Figure 2 is a schematic front view of the waste plastic crushing apparatus according to an embodiment of the present invention,
3 is a cross-sectional view of a waste plastic crushing apparatus according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, which are intended to explain in detail enough that a person having ordinary skill in the art can easily practice the present invention. It is not intended that the technical spirit and scope of the invention be limited.

Waste plastic crushing apparatus according to an embodiment of the present invention shown in Figures 1 to 3,

In the waste plastic crusher for grinding the waste plastic introduced through the opening of the housing due to the blade rotation,

The upper frame 11b in which the opening 11c into which the to-be-processed object (referred to as waste plastic) is inserted, and the upper frame 11b are detachably mounted by the fastening member 22, A housing 11 formed as a lower frame 11a in which a discharge port 11d is discharged, and

Rotatably mounted in the housing 11 to cool the frictional heat due to the mutual heat exchange of the cooling water and the frictional heat generated in the housing 11 due to the mutual friction of the crushed object and the grinder 10 for crushing the workpiece, Is formed in at least one of the rotating shaft 13 for rotating the housing 11 and the blade 12 is in communication with the inlet (14) and the outlet (15) for inflow and outflow of the coolant is filled with the coolant Cooling water circulation passage (16),

It is formed on the left and right rotary support members 17 rotatably supporting the rotary shaft 13 on which the grinder 10 is mounted, and supplies air pressure from the outside into the rotary support member 17 to supply the grinder 10 to the driving unit. And a pneumatic supply passage 18 which prevents crushed scraps or pulverized particles from being caught, and prevents fine particles from flowing out of the housing 11 through the gap from the inside of the housing 11.

Although not shown in the drawing, the above-described cooling water circulation passage 16 is

A cooling water jacket formed in the housing 11 and communicating with the inlet 14 and the outlet 15 to circulate the cooling water, a diaphragm (consisting of opposed plates to form the cooling water circulation passage 16), or a pipe; Is done as. In this case, since the frictional heat generated in the housing 11 is cooled by mutual heat exchange with the coolant circulated along the coolant circulation passage 16 of the coolant jacket, detailed descriptions of the structure and operation thereof are omitted. do.

Although not shown in the drawing, the refrigerant may be circulated in the cooling water circulation passage 16 to improve the cooling performance due to the mutual heat exchange with the frictional heat generated in the housing 11 described above. At this time, since the configuration including a heat exchanger made of a cooling fan or the like is a configuration used in the art, a detailed description of these configurations and operations will be omitted.

On the other hand, a configuration including a drive means including a drive motor to rotate the above-described rotary shaft 13, and a control means including an operation switch to drive the grinder 10, etc. are used in the art Because of the configuration, detailed descriptions of these configurations and operations are omitted.

In the drawing, reference numeral 19 is a pump for pressurizing and circulating the cooling water to improve the cooling efficiency by mutual heat exchange between the cooling water and the frictional heat, 20 is mounted on the rotating shaft 13, and several blades 12 are fastened to the fastening member ( 21 is a rotatable body detachably fixed to each other by 21), and 30 is a mesh through which the particulate matter to be pulverized by the mill 10 passes.
As described above, the grinder 10 has a rotary shaft 13 at which both ends are rotatably supported by the left and right rotary support members 17 provided at both sides of the housing 11, and is mounted on the rotary shaft 13 and is counterclockwise. Rotating body 20 rotated in a direction, and several detachably mounted by the fastening member 21 to maintain a predetermined interval radially to the rotating body 20 (three in the drawings are provided at 120-degree angle intervals It is a configuration consisting of a blade (12).
In addition, the housing 11 has a fastening member 22 to the lower frame 11a close to an end of the blade 12 to pulverize the object to be crushed together with the blade 12 rotated in a counterclockwise direction. It is configured to include a second blade 120 detachably mounted by.
Since the blade 12 and the second blade 120 are detachably assembled from the rotating body 20 and the lower frame 11a, the blade 12 and the second blade when the end is blunt in the repeated grinding process. Only 120 may be replaceable.
By such a configuration, as the rotating body is rotated in the counterclockwise direction, by the engagement action of the blade 12 in which the pulverized object is rotated by the rotating body and the second blade 120 fixed to the lower frame 11a. To be crushed.
In addition, the lower part of the pulverizer is configured to include a mesh (mesh) 30 through which the pulverized matter pulverized by the pulverizer 10 passes.
According to this configuration, the pulverized material in the form of small particles pulverized in the pulverized pulverized material is discharged through the mesh 30, and the large-size pulverized material which is not discharged through the mash 30 is rotated 20. It is made to be discharged to the discharge port 11d by passing through the mesh 30 after being crushed again with the second blade 120 by the blade 12 by the rotation of the.

Hereinafter, an example of use of the waste plastic crushing apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3, the housing 11 through the opening (11c) formed in the upper frame (11b) forming the housing 11, the waste plastic collected and collected so as to recycle the resources of the waste plastic (recycling) ) Is put into. At this time, since the rotating shaft 13 connected to the driving means including a driving motor is rotated, it is fixed to the rotating body 20 mounted on the rotating shaft 13 (rotated counterclockwise in the drawing of FIG. 1). The waste plastic can be crushed by rotating several blades 12.

The high-temperature friction heat generated by the mutual friction of the blade 12 with the pulverized material introduced through the opening 11c during the rotation of the blade 12 is generated in the housing 11. At this time, the grinding efficiency is lowered due to the softening phenomenon of the plastic due to the high heat generated in the housing 11 when grinding the pulverized object.

Therefore, the coolant flowing through the inlet 14 formed at one side of the housing 11 is circulated along the coolant circulation passage 16 formed in the housing 11, and through the outlet 15 formed in the housing 11. It is discharged to the outside. In this case, the frictional heat may be cooled due to mutual heat exchange between the high heat generated in the housing 11 and the coolant circulated along the coolant circulation passage 16.

On the other hand, as the coolant having a predetermined pressure discharged from the pump 19 is introduced into the coolant circulation passage 16 through the inlet 14, the circulation rate of the coolant is increased to increase the cooling efficiency of the frictional heat.

When the pulverized material introduced into the housing 11 described above is pulverized by the rotation of the blades 12, externally compressed through the air pressure supply passage 18 formed on the rotary support member 17 supporting the rotating shaft 13. Compressed air from an air source (not shown air compressor or the like) is discharged into the rotary support member 17. As a result, it is possible to prevent the pulverized scrap, pulverized particles, etc. of the pulverized object from flowing toward the driving unit of the pulverizer 10.

Therefore, it is possible to prevent the load caused by driving the grinder 10 generated when fine scraps, grind particles, etc. are caught in the drive portion of the grinder 10. This protects parts, such as a bearing which rotatably supports the rotating shaft 13, and can improve the workability which grind | pulverizes a to-be-processed object by the blade 12. In addition, by discharging the air pressure into the housing 11 through the air pressure supply passage 18 from the outside it is possible to prevent the pulverized fine pulverized matter (crushed particles, etc.) to flow out of the housing (11).

According to the waste plastic crushing apparatus according to an embodiment of the present invention as described above, when the waste plastic introduced into the housing is pulverized by the rotation of the blade, the high temperature heat generated in the housing due to the mutual friction of the crusher and the pulverized object By circulating the cooling water or the like, softening of the plastic can be prevented. By preventing the accumulation of fine pulverized matter such as scrap and crushed particles, etc., in the driving unit for rotating the pulverizer, the occurrence of load on the pulverizer is prevented, thereby reducing the frequency of failure.

10; grinder
11; housing
12; blade
13; Rotating shaft
14; Inlet
15; Outlet
16; Coolant circulation passage
17; Rotary support member
18; Pneumatic supply passage
19; Pump
20; Rotating body
21, 22; The fastening member

Claims (3)

The waste plastic injected through the opening is pulverized due to the rotation of the blade, and the upper frame is formed with the opening into which the pulverized material is input, and the upper frame is detachably mounted, and a discharge port through which the pulverized pulverized material is discharged is formed. Cooling friction heat due to the mutual heat exchange of the frictional heat and the cooling water generated in the housing due to the mutual friction of the crushed object and the crusher rotatably mounted in the housing and the crushed object to be crushed in the housing A cooling water circulation passage formed in at least one of the housing and the rotating shaft rotating the blades so as to be connected to an inlet and an outlet for inflow and outflow of the cooling water to fill the cooling water, and an air pressure for supplying external air into the housing; Including supply passage In the crushing device consisting of waste plastic,
The grinder has a rotary shaft rotatably supported at both ends by left and right rotary support members provided at both sides of the housing, a rotary body mounted on the rotary shaft and rotated in a counterclockwise direction, and radially spaced from the rotary body. Consisting of several blades which are detachably mounted by a fastening member so as to be maintained;
The housing includes a second blade detachably mounted and replaceable by the fastening member on the lower frame in close proximity to an end of the blade to pulverize the workpiece with the blade rotated in a counterclockwise direction;
A lower portion of the crusher includes a mesh through which the pulverized substance to be pulverized by the crusher passes;
The pneumatic supply passage prevents crushed scraps or pulverized particles from being caught in the pulverizer drive unit and prevents pulverized matters from leaking out of the housing through a gap from the inside of the housing and into the rotary bearing member from the outside. Waste plastic crushing apparatus, characterized in that formed on the rotary support member for supplying air pressure. delete delete

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